Tag Archives: criteria

As a rule, when we grow plants, we follow some known practices. The practices may be based on our own experience, on the wisdom of our parents and grandparents, or on scientific research. Whatever the source, it is useful to examine the practices through the lens of the Laws of Nature, sometimes referred to as ecological principles.

The Laws of Nature are broad and substantive statements for how nature functions.

So the question becomes, “Are our plant-growing practices in harmony with or in conflict with the Laws of Nature?”

What other criteria would we use for how we treat our lands, the soils, and all ecosystems, if not the Laws of Nature?

I think of this as a pyramid, with practices on the top, undergirded by Laws of Nature criteria. Then, the practices and Laws are undergirded by our personal land-use ethics.

9 Laws of Nature

Below, I’ve listed nine Laws of Nature.

This list is not fully inclusive; some may seem to be more pertinent than others; and someone else may choose to describe them in a different manner. Nevertheless, they are all statements that hold true, with rare exceptions.

In my garden, if a practice violates a Law of Nature, I look for a substitute practice that is in harmony with the Law.

This broad topic has deep implications and is worthy of further study. The more we understand and apply these Laws, the more we can grow healthier crops, become healthier ourselves, and more fully appreciate the magnificence of nature.

#1: Everything in Nature Is Connected

It’s like a huge spider web. Every spot on the web is connected to the whole web. All the factors effecting growth and development—from the minerals in the air to the plant’s physiological processes to the soil microbes to hundreds of additional factors—are all part of the whole.

The implications of this concept are significant.

For example, apply too much nitrogen and the plants get a pretty green color, but at the same time produce an excessive amount of simple carbohydrates, which are ideal foods for the ever-present aphids.

Chemicals and other toxins that reduce soil microorganisms have impacts on soil mineralization and soil digestion processes, which all affect quality and quantity of production. For example, if your soil has a shortage of available calcium, a tomato plant is not likely to set fruit.

#2: Plants Are Designed to be Healthy

Like humans and other living organisms, plants have an immune system that makes them resistant to insects and diseases that are native to their environment. Plants become weak and sick when they become stressed because of environmental factors, inadequate nutrition, and/or exposure to toxins.

Chemical pesticides and fertilizers create plant and soil conditions that are not conducive to the desirable bacteria and fungi in the soil. The soil microbiome is part of the plant’s defense mechanism.

#3: Insects and Disease Are the Appropriate Response to the Existing Conditions

Insect problems and disease are the result of plant weakness, not the cause of plant weakness. When we improve the conditions, we improve plant resistance. Diseases are nature’s demolition crew and insects are nature’s garbage collectors. Both are appropriate when plants are stressed. Unhealthy plants actually send signals to the insects so they can perform their meaningful designed role.

#4: Mineral Nutrition Supports Plant Immunity

When plant growth is supported with proper mineral nutrition, plants will create higher-order compounds—for example, plant secondary metabolites like essential oils. This and other enzyme developments can lead to optimum levels of health and immunity.

The thousands of enzymes needed in metabolic processes each require a mineral “enzyme cofactor” to function. Without the mineral cofactors, enzyme pathways collapse and plants accumulate soluble compounds in plant sap, leading to pest infestations as plant health begins to fall apart.

#5: Microbial Metabolites Are More Efficient Than Simple Ions as a Source of Nutrition

The ultimate level of plant nutrition and immunity exists when plants can absorb the majority of their nutritional requirements as microbial metabolites. In this model, the soil microbial community serves as the plant’s digestive system. A complex community of soil microorganisms digest and break down organic residues and plant root exudates. In this digestive process, minerals are extracted from the soil mineral matrix and released in a bioavailable form that plants absorb and utilize very efficiently.

#6: When Fruit Quality Improves, Yields Increase

When management emphasis is placed on plant nutrition to improve quality, the immunity of the crop increases, creating higher yields, longer produce shelf-life, improved flavor, and reduced dependence on pesticides.

This fundamentally different approach to plant nutrition can lead to yield increases ranging from 10–30 percent. Yield increases come in not only bushels per acre, but also in higher test weights, increased protein production, and increased nutrition per acre.

It is commonly understood that healthy soils create healthy plants. The reverse is also true.

Healthy plants create healthy soils.

Healthy plants with high levels of energy can, at times, send as much as 70 percent of their total photosynthates (manifested as sugars, amino acids, and other compounds) into the roots, and then out through the roots and into the soil. Those root exudates are the fuel that feed the soil microbial community and lead to the rapid formation of organic matter.

This process, called carbon induction, is the fastest and most efficient way to sequester carbon and build soil organic matter.

It is an advantage to the plants to invest in soil building. Root exudates rapidly build humic substances. Humic compounds last in the soils for many years. In the end, the entire process ends up rapidly building soil health. It’s another win-win for nature.

#8: Genetic Variability in Plants Serves as a Buffering System

Plant variability allows for selective fitting of plant genetics to specific qualitative differences in the environment. It’s like an insurance plan, with the goal of increased probability of improved plant survival and growth. There are positive synergistic effects, above and below ground, that result from creating diversity through the mixing of species.

#9: Weeds Are a Barometer of Soil Health

We know that different crops have different soil, mineral, and soil biology requirements. So, too, with weeds. When compared to healthy domesticated crops, weeds are usually pioneering (first to enter) species that thrive in soils with imbalanced microbial and nutritional profiles. As soil health improves, crops will improve and weeds will lose their vigor. The weeds are no longer needed to correct the soil imbalances.

Take-Home Lessons

To sum up how nature functions in nine Laws certainly does not do justice to the topic nor does it show the magnificence of nature. Still, despite the inadequacies, the nine Laws are sufficient to provide guidance as to which gardening practices fit the Laws of Nature model.

The following list of gardening practices, which I use in my natural/organic garden in Northwest Arkansas, respect the Laws of Nature. Furthermore, the practices fit my personal land-ethics values.

I do these things to eat healthy food, to teach others, and especially for the children and future generations.

I hope you will consider joining in the transformation.

Use no or at least minimum tillage. Never use a roto-tiller. Besides destroying the natural soil structure, roto-tillers will seriously damage the beneficial fungi in all kinds of soil situations.

Keep the soil covered with a vegetable crop, cover crop, or some type of organic mulch at all times. This practice will promote soil microbial life.

Keep something growing on the beds for as long as possible throughout the year. Where you can, grow crops specifically for deep-root penetration and/or high carbon production.

Wherever possible, encourage diversity of species. Use companion planting where you can.